libgomp/testsuite/libgomp.c++/collapse-2.C - gcc - Git at Google

 // { dg-do run }

 #include <omp.h>
 typedef __PTRDIFF_TYPE__ ptrdiff_t;
 extern "C" void abort ();

 template <typename T>
 class I
 {
 public:
   typedef ptrdiff_t difference_type;
   I ();
   ~I ();
   I (T *);
   I (const I &);
   T &operator * ();
   T *operator -> ();
   T &operator [] (const difference_type &) const;
   I &operator = (const I &);
   I &operator ++ ();
   I operator ++ (int);
   I &operator -- ();
   I operator -- (int);
   I &operator += (const difference_type &);
   I &operator -= (const difference_type &);
   I operator + (const difference_type &) const;
   I operator - (const difference_type &) const;
   template <typename S> friend bool operator == (I<S> &, I<S> &);
   template <typename S> friend bool operator == (const I<S> &, const I<S> &);
   template <typename S> friend bool operator < (I<S> &, I<S> &);
   template <typename S> friend bool operator < (const I<S> &, const I<S> &);
   template <typename S> friend bool operator <= (I<S> &, I<S> &);
   template <typename S> friend bool operator <= (const I<S> &, const I<S> &);
   template <typename S> friend bool operator > (I<S> &, I<S> &);
   template <typename S> friend bool operator > (const I<S> &, const I<S> &);
   template <typename S> friend bool operator >= (I<S> &, I<S> &);
   template <typename S> friend bool operator >= (const I<S> &, const I<S> &);
   template <typename S> friend typename I<S>::difference_type operator - (I<S> &, I<S> &);
   template <typename S> friend typename I<S>::difference_type operator - (const I<S> &, const I<S> &);
   template <typename S> friend I<S> operator + (typename I<S>::difference_type , const I<S> &);
 private:
   T *p;
 };
 template <typename T> I<T>::I () : p (0) {}
 template <typename T> I<T>::~I () { p = (T *) 0; }
 template <typename T> I<T>::I (T *x) : p (x) {}
 template <typename T> I<T>::I (const I &x) : p (x.p) {}
 template <typename T> T &I<T>::operator * () { return *p; }
 template <typename T> T *I<T>::operator -> () { return p; }
 template <typename T> T &I<T>::operator [] (const difference_type &x) const { return p[x]; }
 template <typename T> I<T> &I<T>::operator = (const I &x) { p = x.p; return *this; }
 template <typename T> I<T> &I<T>::operator ++ () { ++p; return *this; }
 template <typename T> I<T> I<T>::operator ++ (int) { return I (p++); }
 template <typename T> I<T> &I<T>::operator -- () { --p; return *this; }
 template <typename T> I<T> I<T>::operator -- (int) { return I (p--); }
 template <typename T> I<T> &I<T>::operator += (const difference_type &x) { p += x; return *this; }
 template <typename T> I<T> &I<T>::operator -= (const difference_type &x) { p -= x; return *this; }
 template <typename T> I<T> I<T>::operator + (const difference_type &x) const { return I (p + x); }
 template <typename T> I<T> I<T>::operator - (const difference_type &x) const { return I (p - x); }
 template <typename T> bool operator == (I<T> &x, I<T> &y) { return x.p == y.p; }
 template <typename T> bool operator == (const I<T> &x, const I<T> &y) { return x.p == y.p; }
 template <typename T> bool operator != (I<T> &x, I<T> &y) { return !(x == y); }
 template <typename T> bool operator != (const I<T> &x, const I<T> &y) { return !(x == y); }
 template <typename T> bool operator < (I<T> &x, I<T> &y) { return x.p < y.p; }
 template <typename T> bool operator < (const I<T> &x, const I<T> &y) { return x.p < y.p; }
 template <typename T> bool operator <= (I<T> &x, I<T> &y) { return x.p <= y.p; }
 template <typename T> bool operator <= (const I<T> &x, const I<T> &y) { return x.p <= y.p; }
 template <typename T> bool operator > (I<T> &x, I<T> &y) { return x.p > y.p; }
 template <typename T> bool operator > (const I<T> &x, const I<T> &y) { return x.p > y.p; }
 template <typename T> bool operator >= (I<T> &x, I<T> &y) { return x.p >= y.p; }
 template <typename T> bool operator >= (const I<T> &x, const I<T> &y) { return x.p >= y.p; }
 template <typename T> typename I<T>::difference_type operator - (I<T> &x, I<T> &y) { return x.p - y.p; }
 template <typename T> typename I<T>::difference_type operator - (const I<T> &x, const I<T> &y) { return x.p - y.p; }
 template <typename T> I<T> operator + (typename I<T>::difference_type x, const I<T> &y) { return I<T> (x + y.p); }

 template <typename T>
 class J
 {
 public:
   J(const I<T> &x, const I<T> &y) : b (x), e (y) {}
   const I<T> &begin ();
   const I<T> &end ();
 private:
   I<T> b, e;
 };

 template <typename T> const I<T> &J<T>::begin () { return b; }
 template <typename T> const I<T> &J<T>::end () { return e; }

 int results[2000];

 void
 f1 (J<int> x, J<int> y, J<int> z)
 {
   I<int> i, j, k;
   int l, f = 0, n = 0, m = 0;
 #pragma omp parallel shared (i, j, k, l) firstprivate (f) \
 		     reduction (+:n, m) num_threads (8)
   {
   #pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
 		  collapse (4)
     for (i = x.begin (); i < x.end (); ++i)
       for (j = y.begin (); j <= y.end (); j += 1)
 	for (l = 0; l < 1; l++)
 	  for (k = z.begin () + 3; k < z.end () - 3; k++)
 	    if (omp_get_num_threads () == 8
 		&& ((*i + 2) * 12 + (*j + 5) * 4 + (*k - 13)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
   }
   if (n || i != x.end () || j != y.end () + 1 || k != z.end () - 3
       || m != 72 || l != 1)
     abort ();
 }

 void
 f2 (J<int> x, J<int> y, J<int> z)
 {
   int f = 0, n = 0, m = 0;
 #pragma omp parallel for firstprivate (f) reduction (+:n, m) \
 			 num_threads (8) schedule (static, 9) \
 			 collapse (6 - 2)
   for (I<int> i = x.end () - 1; i >= x.begin (); --i)
     for (int l = -131; l >= -131; l--)
       for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
 	{
 	  for (I<int> k = z.end () - 4; k >= z.begin () + 3; k--)
 	    if (omp_get_num_threads () == 8
 		&& ((3 - *i) * 12 + (-3 - *j) * 4 + (16 - *k)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
   if (n || m != 72)
     abort ();
 }

 template <typename T>
 void
 f3 (J<int> x, J<int> y, J<int> z)
 {
   I<int> i, j, k;
   int l, f = 0, n = 0, m = 0;
 #pragma omp parallel shared (i, j, k, l) firstprivate (f) \
 		     reduction (+:n, m) num_threads (8)
   {
   #pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
 		  collapse (4)
     for (i = x.begin (); i < x.end (); ++i)
       for (j = y.begin (); j <= y.end (); j += 1)
 	for (k = z.begin () + 3; k < z.end () - 3; k++)
 	  for (l = 7; l <= 7; l++)
 	    if (omp_get_num_threads () == 8
 		&& ((*i + 2) * 12 + (*j + 5) * 4 + (*k - 13)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
   }
   if (n || i != x.end () || j != y.end () + 1 || k != z.end () - 3
       || m != 72 || l != 8)
     abort ();
 }

 template <typename T>
 void
 f4 (J<int> x, J<int> y, J<int> z)
 {
   int f = 0, n = 0, m = 0;
 #pragma omp parallel for firstprivate (f) reduction (+:n, m) \
 			 num_threads (8) schedule (static, 9) \
 			 collapse (5 - 2)
   for (I<int> i = x.end () - 1; i >= x.begin (); --i)
     {
       for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
 	{
 	  for (I<int> k = z.end () - 4; k >= z.begin () + 3; k--)
 	    if (omp_get_num_threads () == 8
 		&& ((3 - *i) * 12 + (-3 - *j) * 4 + (16 - *k)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
     }
   if (n || m != 72)
     abort ();
 }

 template <typename T>
 void
 f5 (J<int> x, J<int> y, J<int> z)
 {
   I<int> i, j, k;
   int f = 0, n = 0, m = 0;
 #pragma omp parallel shared (i, j, k) firstprivate (f) \
 		     reduction (+:n, m) num_threads (8)
   {
   #pragma omp for lastprivate (i, j, k) schedule (static, 9) \
 		  collapse (3)
     for (i = x.begin (); i < x.end (); ++i)
       for (j = y.begin (); j <= y.end (); j += (T) 1)
 	{
 	  for (k = z.begin () + 3; k < z.end () - 3; k++)
 	    if (omp_get_num_threads () == 8
 		&& ((*i + 2) * 12 + (*j + 5) * 4 + (*k - 13)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
   }
   if (n || i != x.end () || j != y.end () + 1 || k != z.end () - 3
       || m != 72)
     abort ();
 }

 template <typename T>
 void
 f6 (J<int> x, J<int> y, J<int> z)
 {
   int f = 0, n = 0, m = 0;
 #pragma omp parallel for firstprivate (f) reduction (+:n, m) \
 			 num_threads (8) schedule (static, 9) \
 			 collapse (5 - 2)
   for (I<int> i = x.end () - 1; i >= x.begin (); --i)
     {
       for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
 	{
 	  for (I<int> k = z.end () - 4; k >= z.begin () + (T) 3; k--)
 	    if (omp_get_num_threads () == 8
 		&& ((3 - *i) * 12 + (-3 - *j) * 4 + (16 - *k)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
     }
   if (n || m != 72)
     abort ();
 }

 template <typename T>
 void
 f7 (J<T> x, J<T> y, J<T> z)
 {
   I<T> i, j, k, o = y.begin ();
   T l, f = 0, n = 0, m = 0;
 #pragma omp parallel shared (i, j, k, l) firstprivate (f) \
 		     reduction (+:n, m) num_threads (8)
   {
   #pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
 		  collapse (4)
     for (i = x.begin (); i < x.end (); ++i)
       for (j = y.begin (); j <= y.end (); j += 1)
 	for (l = *o; l <= *o; l = 1 + l)
 	  for (k = z.begin () + 3; k < z.end () - 3; k++)
 	    if (omp_get_num_threads () == 8
 		&& ((*i + 2) * 12 + (*j + 5) * 4 + (*k - 13)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
   }
   if (n || i != x.end () || j != y.end () + 1 || k != z.end () - 3
       || m != 72 || l != *o + 1)
     abort ();
 }

 template <typename T>
 void
 f8 (J<T> x, J<T> y, J<T> z)
 {
   T f = 0, n = 0, m = 0;
 #pragma omp parallel for firstprivate (f) reduction (+:n, m) \
 			 num_threads (8) schedule (static, 9) \
 			 collapse (6 - 2)
   for (I<T> i = x.end () - 1; i >= x.begin (); --i)
     for (T l = 0; l < 1; l++)
       for (I<T> j = y.end (); j > y.begin () - 1; j -= 1)
 	{
 	  for (I<T> k = z.end () - 4; k >= z.begin () + 3; k--)
 	    if (omp_get_num_threads () == 8
 		&& ((3 - *i) * 12 + (-3 - *j) * 4 + (16 - *k)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
   if (n || m != 72)
     abort ();
 }

 template <typename S, typename T>
 void
 f9 (J<T> x, J<T> y, J<T> z)
 {
   S i, j, k, o = y.begin ();
   T l, f = 0, n = 0, m = 0;
 #pragma omp parallel shared (i, j, k, l) firstprivate (f) \
 		     reduction (+:n, m) num_threads (8)
   {
   #pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
 		  collapse (4)
     for (i = x.begin (); i < x.end (); ++i)
       for (j = y.begin (); j <= y.end (); j += 1)
 	for (l = *o; l <= *o; l = 1 + l)
 	  for (k = z.begin () + 3; k < z.end () - 3; k++)
 	    if (omp_get_num_threads () == 8
 		&& ((*i + 2) * 12 + (*j + 5) * 4 + (*k - 13)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
   }
   if (n || i != x.end () || j != y.end () + 1 || k != z.end () - 3
       || m != 72 || l != *o + 1)
     abort ();
 }

 template <typename S, typename T>
 void
 f10 (J<T> x, J<T> y, J<T> z)
 {
   T f = 0, n = 0, m = 0;
 #pragma omp parallel for firstprivate (f) reduction (+:n, m) \
 			 num_threads (8) schedule (static, 9) \
 			 collapse (6 - 2)
   for (S i = x.end () - 1; i >= x.begin (); --i)
     for (T l = 0; l < 1; l++)
       for (S j = y.end (); j > y.begin () - 1; j -= 1)
 	{
 	  for (S k = z.end () - 4; k >= z.begin () + 3; k--)
 	    if (omp_get_num_threads () == 8
 		&& ((3 - *i) * 12 + (-3 - *j) * 4 + (16 - *k)
 		    != (omp_get_thread_num () * 9 + f++)))
 	      n++;
 	    else
 	      m++;
 	}
   if (n || m != 72)
     abort ();
 }

 int
 main ()
 {
   int a[2000];
   long b[2000];
   for (int i = 0; i < 2000; i++)
     {
       a[i] = i - 1000;
       b[i] = i - 1000;
     }
   J<int> x (&a[998], &a[1004]);
   J<int> y (&a[995], &a[997]);
   J<int> z (&a[1010], &a[1020]);
   f1 (x, y, z);
   f2 (x, y, z);
   f3 <int> (x, y, z);
   f4 <int> (x, y, z);
   f5 <int> (x, y, z);
   f6 <int> (x, y, z);
   f7 <int> (x, y, z);
   f8 <int> (x, y, z);
   f9 <I<int>, int> (x, y, z);
   f10 <I<int>, int> (x, y, z);
 }
	// { dg-do run }

	#include <omp.h>
	typedef __PTRDIFF_TYPE__ ptrdiff_t;
	extern "C" void abort ();

	template <typename T>
	class I
	{
	public:
	typedef ptrdiff_t difference_type;
	I ();
	~I ();
	I (T *);
	I (const I &);
	T &operator * ();
	T *operator -> ();
	T &operator [] (const difference_type &) const;
	I &operator = (const I &);
	I &operator ++ ();
	I operator ++ (int);
	I &operator -- ();
	I operator -- (int);
	I &operator += (const difference_type &);
	I &operator -= (const difference_type &);
	I operator + (const difference_type &) const;
	I operator - (const difference_type &) const;
	template <typename S> friend bool operator == (I<S> &, I<S> &);
	template <typename S> friend bool operator == (const I<S> &, const I<S> &);
	template <typename S> friend bool operator < (I<S> &, I<S> &);
	template <typename S> friend bool operator < (const I<S> &, const I<S> &);
	template <typename S> friend bool operator <= (I<S> &, I<S> &);
	template <typename S> friend bool operator <= (const I<S> &, const I<S> &);
	template <typename S> friend bool operator > (I<S> &, I<S> &);
	template <typename S> friend bool operator > (const I<S> &, const I<S> &);
	template <typename S> friend bool operator >= (I<S> &, I<S> &);
	template <typename S> friend bool operator >= (const I<S> &, const I<S> &);
	template <typename S> friend typename I<S>::difference_type operator - (I<S> &, I<S> &);
	template <typename S> friend typename I<S>::difference_type operator - (const I<S> &, const I<S> &);
	template <typename S> friend I<S> operator + (typename I<S>::difference_type , const I<S> &);
	private:
	T *p;
	};
	template <typename T> I<T>::I () : p (0) {}
	template <typename T> I<T>::~I () { p = (T *) 0; }
	template <typename T> I<T>::I (T *x) : p (x) {}
	template <typename T> I<T>::I (const I &x) : p (x.p) {}
	template <typename T> T &I<T>::operator * () { return *p; }
	template <typename T> T *I<T>::operator -> () { return p; }
	template <typename T> T &I<T>::operator [] (const difference_type &x) const { return p[x]; }
	template <typename T> I<T> &I<T>::operator = (const I &x) { p = x.p; return *this; }
	template <typename T> I<T> &I<T>::operator ++ () { ++p; return *this; }
	template <typename T> I<T> I<T>::operator ++ (int) { return I (p++); }
	template <typename T> I<T> &I<T>::operator -- () { --p; return *this; }
	template <typename T> I<T> I<T>::operator -- (int) { return I (p--); }
	template <typename T> I<T> &I<T>::operator += (const difference_type &x) { p += x; return *this; }
	template <typename T> I<T> &I<T>::operator -= (const difference_type &x) { p -= x; return *this; }
	template <typename T> I<T> I<T>::operator + (const difference_type &x) const { return I (p + x); }
	template <typename T> I<T> I<T>::operator - (const difference_type &x) const { return I (p - x); }
	template <typename T> bool operator == (I<T> &x, I<T> &y) { return x.p == y.p; }
	template <typename T> bool operator == (const I<T> &x, const I<T> &y) { return x.p == y.p; }
	template <typename T> bool operator != (I<T> &x, I<T> &y) { return !(x == y); }
	template <typename T> bool operator != (const I<T> &x, const I<T> &y) { return !(x == y); }
	template <typename T> bool operator < (I<T> &x, I<T> &y) { return x.p < y.p; }
	template <typename T> bool operator < (const I<T> &x, const I<T> &y) { return x.p < y.p; }
	template <typename T> bool operator <= (I<T> &x, I<T> &y) { return x.p <= y.p; }
	template <typename T> bool operator <= (const I<T> &x, const I<T> &y) { return x.p <= y.p; }
	template <typename T> bool operator > (I<T> &x, I<T> &y) { return x.p > y.p; }
	template <typename T> bool operator > (const I<T> &x, const I<T> &y) { return x.p > y.p; }
	template <typename T> bool operator >= (I<T> &x, I<T> &y) { return x.p >= y.p; }
	template <typename T> bool operator >= (const I<T> &x, const I<T> &y) { return x.p >= y.p; }
	template <typename T> typename I<T>::difference_type operator - (I<T> &x, I<T> &y) { return x.p - y.p; }
	template <typename T> typename I<T>::difference_type operator - (const I<T> &x, const I<T> &y) { return x.p - y.p; }
	template <typename T> I<T> operator + (typename I<T>::difference_type x, const I<T> &y) { return I<T> (x + y.p); }

	template <typename T>
	class J
	{
	public:
	J(const I<T> &x, const I<T> &y) : b (x), e (y) {}
	const I<T> &begin ();
	const I<T> &end ();
	private:
	I<T> b, e;
	};

	template <typename T> const I<T> &J<T>::begin () { return b; }
	template <typename T> const I<T> &J<T>::end () { return e; }

	int results[2000];

	void
	f1 (J<int> x, J<int> y, J<int> z)
	{
	I<int> i, j, k;
	int l, f = 0, n = 0, m = 0;
	#pragma omp parallel shared (i, j, k, l) firstprivate (f) \
	reduction (+:n, m) num_threads (8)
	{
	#pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
	collapse (4)
	for (i = x.begin (); i < x.end (); ++i)
	for (j = y.begin (); j <= y.end (); j += 1)
	for (l = 0; l < 1; l++)
	for (k = z.begin () + 3; k < z.end () - 3; k++)
	if (omp_get_num_threads () == 8
	&& ((i + 2) 12 + (j + 5) 4 + (*k - 13)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| i != x.end () \|\| j != y.end () + 1 \|\| k != z.end () - 3
	\|\| m != 72 \|\| l != 1)
	abort ();
	}

	void
	f2 (J<int> x, J<int> y, J<int> z)
	{
	int f = 0, n = 0, m = 0;
	#pragma omp parallel for firstprivate (f) reduction (+:n, m) \
	num_threads (8) schedule (static, 9) \
	collapse (6 - 2)
	for (I<int> i = x.end () - 1; i >= x.begin (); --i)
	for (int l = -131; l >= -131; l--)
	for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
	{
	for (I<int> k = z.end () - 4; k >= z.begin () + 3; k--)
	if (omp_get_num_threads () == 8
	&& ((3 - i) 12 + (-3 - j) 4 + (16 - *k)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| m != 72)
	abort ();
	}

	template <typename T>
	void
	f3 (J<int> x, J<int> y, J<int> z)
	{
	I<int> i, j, k;
	int l, f = 0, n = 0, m = 0;
	#pragma omp parallel shared (i, j, k, l) firstprivate (f) \
	reduction (+:n, m) num_threads (8)
	{
	#pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
	collapse (4)
	for (i = x.begin (); i < x.end (); ++i)
	for (j = y.begin (); j <= y.end (); j += 1)
	for (k = z.begin () + 3; k < z.end () - 3; k++)
	for (l = 7; l <= 7; l++)
	if (omp_get_num_threads () == 8
	&& ((i + 2) 12 + (j + 5) 4 + (*k - 13)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| i != x.end () \|\| j != y.end () + 1 \|\| k != z.end () - 3
	\|\| m != 72 \|\| l != 8)
	abort ();
	}

	template <typename T>
	void
	f4 (J<int> x, J<int> y, J<int> z)
	{
	int f = 0, n = 0, m = 0;
	#pragma omp parallel for firstprivate (f) reduction (+:n, m) \
	num_threads (8) schedule (static, 9) \
	collapse (5 - 2)
	for (I<int> i = x.end () - 1; i >= x.begin (); --i)
	{
	for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
	{
	for (I<int> k = z.end () - 4; k >= z.begin () + 3; k--)
	if (omp_get_num_threads () == 8
	&& ((3 - i) 12 + (-3 - j) 4 + (16 - *k)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	}
	if (n \|\| m != 72)
	abort ();
	}

	template <typename T>
	void
	f5 (J<int> x, J<int> y, J<int> z)
	{
	I<int> i, j, k;
	int f = 0, n = 0, m = 0;
	#pragma omp parallel shared (i, j, k) firstprivate (f) \
	reduction (+:n, m) num_threads (8)
	{
	#pragma omp for lastprivate (i, j, k) schedule (static, 9) \
	collapse (3)
	for (i = x.begin (); i < x.end (); ++i)
	for (j = y.begin (); j <= y.end (); j += (T) 1)
	{
	for (k = z.begin () + 3; k < z.end () - 3; k++)
	if (omp_get_num_threads () == 8
	&& ((i + 2) 12 + (j + 5) 4 + (*k - 13)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	}
	if (n \|\| i != x.end () \|\| j != y.end () + 1 \|\| k != z.end () - 3
	\|\| m != 72)
	abort ();
	}

	template <typename T>
	void
	f6 (J<int> x, J<int> y, J<int> z)
	{
	int f = 0, n = 0, m = 0;
	#pragma omp parallel for firstprivate (f) reduction (+:n, m) \
	num_threads (8) schedule (static, 9) \
	collapse (5 - 2)
	for (I<int> i = x.end () - 1; i >= x.begin (); --i)
	{
	for (I<int> j = y.end (); j > y.begin () - 1; j -= 1)
	{
	for (I<int> k = z.end () - 4; k >= z.begin () + (T) 3; k--)
	if (omp_get_num_threads () == 8
	&& ((3 - i) 12 + (-3 - j) 4 + (16 - *k)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	}
	if (n \|\| m != 72)
	abort ();
	}

	template <typename T>
	void
	f7 (J<T> x, J<T> y, J<T> z)
	{
	I<T> i, j, k, o = y.begin ();
	T l, f = 0, n = 0, m = 0;
	#pragma omp parallel shared (i, j, k, l) firstprivate (f) \
	reduction (+:n, m) num_threads (8)
	{
	#pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
	collapse (4)
	for (i = x.begin (); i < x.end (); ++i)
	for (j = y.begin (); j <= y.end (); j += 1)
	for (l = o; l <= o; l = 1 + l)
	for (k = z.begin () + 3; k < z.end () - 3; k++)
	if (omp_get_num_threads () == 8
	&& ((i + 2) 12 + (j + 5) 4 + (*k - 13)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| i != x.end () \|\| j != y.end () + 1 \|\| k != z.end () - 3
	\|\| m != 72 \|\| l != *o + 1)
	abort ();
	}

	template <typename T>
	void
	f8 (J<T> x, J<T> y, J<T> z)
	{
	T f = 0, n = 0, m = 0;
	#pragma omp parallel for firstprivate (f) reduction (+:n, m) \
	num_threads (8) schedule (static, 9) \
	collapse (6 - 2)
	for (I<T> i = x.end () - 1; i >= x.begin (); --i)
	for (T l = 0; l < 1; l++)
	for (I<T> j = y.end (); j > y.begin () - 1; j -= 1)
	{
	for (I<T> k = z.end () - 4; k >= z.begin () + 3; k--)
	if (omp_get_num_threads () == 8
	&& ((3 - i) 12 + (-3 - j) 4 + (16 - *k)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| m != 72)
	abort ();
	}

	template <typename S, typename T>
	void
	f9 (J<T> x, J<T> y, J<T> z)
	{
	S i, j, k, o = y.begin ();
	T l, f = 0, n = 0, m = 0;
	#pragma omp parallel shared (i, j, k, l) firstprivate (f) \
	reduction (+:n, m) num_threads (8)
	{
	#pragma omp for lastprivate (i, j, k, l) schedule (static, 9) \
	collapse (4)
	for (i = x.begin (); i < x.end (); ++i)
	for (j = y.begin (); j <= y.end (); j += 1)
	for (l = o; l <= o; l = 1 + l)
	for (k = z.begin () + 3; k < z.end () - 3; k++)
	if (omp_get_num_threads () == 8
	&& ((i + 2) 12 + (j + 5) 4 + (*k - 13)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| i != x.end () \|\| j != y.end () + 1 \|\| k != z.end () - 3
	\|\| m != 72 \|\| l != *o + 1)
	abort ();
	}

	template <typename S, typename T>
	void
	f10 (J<T> x, J<T> y, J<T> z)
	{
	T f = 0, n = 0, m = 0;
	#pragma omp parallel for firstprivate (f) reduction (+:n, m) \
	num_threads (8) schedule (static, 9) \
	collapse (6 - 2)
	for (S i = x.end () - 1; i >= x.begin (); --i)
	for (T l = 0; l < 1; l++)
	for (S j = y.end (); j > y.begin () - 1; j -= 1)
	{
	for (S k = z.end () - 4; k >= z.begin () + 3; k--)
	if (omp_get_num_threads () == 8
	&& ((3 - i) 12 + (-3 - j) 4 + (16 - *k)
	!= (omp_get_thread_num () * 9 + f++)))
	n++;
	else
	m++;
	}
	if (n \|\| m != 72)
	abort ();
	}

	int
	main ()
	{
	int a[2000];
	long b[2000];
	for (int i = 0; i < 2000; i++)
	{
	a[i] = i - 1000;
	b[i] = i - 1000;
	}
	J<int> x (&a[998], &a[1004]);
	J<int> y (&a[995], &a[997]);
	J<int> z (&a[1010], &a[1020]);
	f1 (x, y, z);
	f2 (x, y, z);
	f3 <int> (x, y, z);
	f4 <int> (x, y, z);
	f5 <int> (x, y, z);
	f6 <int> (x, y, z);
	f7 <int> (x, y, z);
	f8 <int> (x, y, z);
	f9 <I<int>, int> (x, y, z);
	f10 <I<int>, int> (x, y, z);
	}